MAXREFDES46#: 4-channel analog input/output

The MAXREFDES46# subsystem reference design meets the needs of modern factory control nodes by featuring four, dense, highly accurate analog inputs and outputs in a compact, galvanically isolated form factor. Analog input channels measure current or voltage and analog output channels provide current or voltage . This design uniquely fits programmable logic controllers (PLC), distributed control systems (DCS), and other industrial applications. Hardware and firmware design files and lab measurements are provided for rapid prototyping and development. The board is also available for purchase.

Schematic PCB

MAXREFDES67#: Universal input micro PLC

Maxim Integrated's MAXREFDES79# reference design is a fully compliant IO-Link version 1.1, 4-port IO-Link Master using a TEConcept software stack. The system contains four IO-Link master transceivers, a standard ARM® Cortex® M3 processor, and efficient industrial step-down DC-DC converters. The MAXREFDES79# comes preprogrammed and ready to connect with any compliant IO-Link device using a simple-to-use graphical user interface (GUI) program. Design files including schematic, PCB, BOM, GUI software, and compliance report are available for download.

Schematic PCB

MAXREFDES77#: Dual-channel current sensing peripheral module

This reference design demonstrates the performance of the MAX44285 dual-channel, high-precision, high-voltage, current-sense amplifier. It is a Pmod module that contains all the necessary circuitry required for the design of a current and temperature monitoring system.

Schematic PCB

MAXREFDES89#: MAX14871 full-bridge DC motor driver MBED platform

MAXREFDES89# is an mbed®-compatible shield for the rapid development of brushed DC motor applications. The shield contains four MAX14871 full-bridge DC motor drivers for driving up to 4 motors. A MAX17501 DC-DC converter allows the system to operate from a single 7 to 36VDC power supply. Four MAX4704 4:1 multiplexers permit setting the current regulation mode of the MAX14871, while two MAX5387 digital potentiometers provide the ability to set the motor current limit. A MAX7300 GPIO expander supports interfacing each motor driver circuit to the mbed enabled microcontroller platform.

Schematic PCB

MAXREFDES112#: Isolated, 24V to 12V, 10W flyback power supply

This document details the MAXREFDES112# subsystem reference design, a 17V to 36V input, 12V output, flyback isolated power supply capable of 10W. Design files and test results are included. Hardware is available for purchase.

Schematic PCB

MAXREFDES111#: Isolated, 24V to 5V, 2W flyback power supply

This document details the MAXREFDES111# subsystem reference design, an 18V to 36V input, 5V/2W output, flyback isolated power supply. Design files and test results are included. Hardware is available for purchase.

Schematic PCB

MAXREFDES115#: Isolated 24V to 5V 20W power supply

MAXREFDES115# is an efficient active clamp topology design with 24V input, and a 5V output at 4A (20W) of power. The design features the MAX17599, an active clamp, current-mode PWM controller optimized for industrial supplies.

TRK-USB-S12G128: S12G StarterTRAK USB Development System

The NXP StarterTRAK USB Kit (TRK-USB-S12G128) provides an easy and cost-effective way to test drivers for NXP's 16-bit S12G MCUs.

MPC5604EKIT: NXP MPC5604EKIT: Development kit supporting video transmission over Ethernet, equipped with NXPMPC5604E MCU

Based on NXPThe Ethernet Video Development Kit for the MPC5604E MCU is suitable for next-generation automotive and general market camera applications.

RD-IMX6Q-SABRE: SABER board based on i.MX 6Quad ​​application processor for smart devices

The SABER board for smart devices is based on the i.MX 6Quad ​​processor and supports 4-core processing, low-power multimedia and graphics applications.

TWR-MC-LV3PH: Low voltage, 3-phase motor control towersystem module

Add BLDC and PMSM motor control functionality to your tower system design with the NXP TWR-MC-LV3PH module.

TWR-KV58F220M: Kinetis KV5x MCU Series Tower System Module

TWR-KV58F220M is a development tool for the KV5x MCU series products in the NXP Kinetis V series

High voltage development platform

NXPThe High Voltage Development Platform is an evaluation and development platform for Kinetis ^® V Series MCUs and NXP DSCs.

Schematic PCB

OM40004: LPC845 Capacitive Touch Development Kit

The LPC845 Capacitive Touch Development Kit (OM40004) makes it easy to evaluate the capacitive touch functionality of LPC84x family devices.

Schematic PCB

TWR-MCF51AG: ColdFire MCF51AG Tower System Module

TWR-MCF51AG-KIT is a development tool based on the MCF51AG128 microcontroller. The kit is part of the NXP Tower System, a modular, reconfigurable development platform that enables designers to accelerate time to market by packaging evaluation boards, tools and runtime software.

Schematic PCB

FRDM-KL26Z: Freedom Development Platform for Kinetis ^{® KL16 and KL26 MCUs (up to 128 KB Flash)}

Freedom KL26Z is an ultra-low-cost development platform for Kinetis L-series KL16 and KL26 MCUs based on Arm ^® Cortex ^® -M0+ processors.

Schematic PCB

FRDM-KL27Z: Freedom ^® development platform for Kinetis ^® KL17 and KL27 MCUs

FRDM-KL27Z is an ultra-low-cost development platform for Kinetis L-series KL17 and KL27 MCUs based on Arm ^® Cortex ^® -M0+ processors.

Schematic PCB

OM11043: Arm Mbed LPC1768 board

Arm Mbed LPC1768 board

Schematic PCB

S12ZVML-MINIXXX: S12ZVM Mini Board and Mini Kit Evaluation Platform

The S12ZVML-MINIBRD evaluation board and the S12ZVML-MINIKIT evaluation kit are engineered for 3-phase BLDC and PMSM sensorless motor control applications.

Schematic PCB

TWR-KM34Z75M: Kinetis M Series Tower System Module

The TWR-KM34Z75M board can operate in standalone mode or as part of a tower system, a modular development board platform that enables rapid prototyping and tool reconfiguration by reconfiguring the hardware. use.

Schematic PCB